Thursday, June 29, 2017

Deadly Rat Lungworm Spreads Across Florida

Floridians have yet another reason to wash their Florida produce. That's because rat lungworm, a parasitic nematode that can cause death, coma, or paralysis in humans and animals is spreading across the Sunshine State, according to University of Florida researchers.

In a survey of 18 counties, nearly 23 percent of rats, about 16 percent of rat fecal samples and nearly 2 percent of land snails tested positive for the nematode.

"The parasite is here in Florida and is something that needs to be taken seriously," said Heather Stockdale Walden, an assistant professor in the UF department of infectious diseases and pathology.

"The reality is that it is probably in more counties than we found it in, and it is also probably more prevalent in the southeastern U.S. than we think. The ability for this historically subtropical nematode to thrive in a more temperate climate is alarming."

So far, rats and snails in Alachua, Leon, St. Johns, Orange and Hillsborough counties tested positive for the parasite.

Wash Florida Fruits and Vegetables

Several steps can help lower the risk of infection, Stockdale Walden said.

"Wash produce," she said. "Some snails are very small and can easily hide in lettuce leaves. Teach children not to eat snails, and if they handle snails, make sure they wash their hands. Be aware of the potential risks associated with eating snails and also raw or undercooked frogs and crustaceans."

Keep Children And Pets Away From Snails

Snails ingest rat lungworm larvae by eating infected rat feces. When a rat eats an infected snail, the larvae penetrate the rat's intestine and enter its circulatory system, which transports them to the brain. There, they develop into immature worms, re-enter the circulatory system and travel to the rat's pulmonary artery where they mature and reproduce. When new larvae hatch, they are coughed up and swallowed by the rat and pass through its feces, completing the life cycle.

Humans can ingest the parasite by consuming infected snails or infected frogs and crustaceans, which can also pick up the nematode.

Infection with rat lungworm can also cause meningitis in animals, as well as limb weakness or paralysis, neck pain and central nervous system problems.

To protect pets and livestock, be mindful of snails in animals' living space, Stockdale Walden said. Check watering troughs for snails that might have fallen in and monitor animals for snail-eating habits.

Rat Lungworm Symptoms

Clinical signs of infection in adults include headache, stiff neck, fever, vomiting, nausea and paralysis of the face and limbs. The most common symptoms of infection in children are nausea, vomiting and fever.

While the fatality rate of infection in humans is low, the parasite can cause eosinophilic meningitis if it becomes trapped and dies in the brain, and severe infections can cause coma or death.

Imported Cargo Containers Likely To Blame

Established in Hawaii and occasionally found in the southern U.S., rat lungworm, or Angiostrongylus cantonensis, relies on rat and snail hosts to complete its lifecycle but can pose a health risk to humans and animals that ingest infected snails.

While snails live most of their lives within a small area, they can easily be transported on cargo containers and in potted plants, which is probably how the parasite first arrived in Florida, said study co-author John Slapcinsky, collections manager of invertebrate zoology at the Florida Museum.

Slapcinsky also noted rat lungworm "doesn't seem to be picky" about the species of snails it infects and could threaten native snail populations. In addition to finding the parasite in three non-native snail species, the research team detected the parasite in three native species: the Florida amber snail; the perforate dome snail; and the quick gloss snail.

"There are a lot of snail species endemic to South Florida that don't occur anywhere else, and the last thing you want to do is throw one more problem their way," he said. "Rat lungworm is finding a whole new pool of animals to infect. The more species it infects, the larger its population can be, which could make transmission even easier."